@article{fdi:010079736,
  title = {{M}agnetic resonance sounding dataset of a hard-rock headwater catchment for assessing the vertical distribution of water contents in the subsurface [{D}ata paper]},
  author = {{L}esparre, {N}. and {G}irard, {J}. {F}. and {J}eannot, {B}. and {W}eill, {S}. and {D}umont, {M}. and {B}oucher, {M}arie and {V}iville, {D}. and {P}ierret, {M}. {C}. and {L}egchenko, {A}natoli and {D}elay, {F}.},
  editor = {},
  language = {{ENG}},
  abstract = {{M}agnetic {R}esonance {S}ounding ({MRS}) measurements are acquired at 16 stations in the {S}trengbach headwater catchment ({V}osges {M}ountains - {F}rance). {T}hese data, rendering the vertical distribution of water contents in the subsurface, are used to show their potential in conditioning a hydrological model of the catchment, as described in the article "{M}agnetic resonance sounding measurements as posterior information to condition hydrological model parameters: {A}pplication to a hard-rock headwater catchment" - {J}ournal of {H}ydrology (2020). {A}cquisition protocols follow a free induction decay scheme. {D}ata are filtered by applying a band-pass filter at the {L}armor frequency. {A} filter removing the 50 {H}z noise is also applied with the exception of data at a {L}armor frequency close to the 50 {H}z harmonic. {T}he signal envelopes are then fitted by a decaying exponential function over time to estimate the median characteristic relaxation time of each {MRS} sounding.},
  keywords = {{H}ydrogeophysics ; {M}agnetic resonance sounding ; {H}eadwater catchment ; {H}ard-rock aquifer ; {C}onditioning parameters of a hydrological model ; {FRANCE} ; {VOSGES} ; {STRENGBACH} {COURS} {D}'{EAU}},
  booktitle = {},
  journal = {{D}ata in {B}rief},
  volume = {31},
  numero = {},
  pages = {105708 [16 ]},
  ISSN = {2352-3409},
  year = {2020},
  DOI = {10.1016/j.dib.2020.105708},
  URL = {https://www.documentation.ird.fr/hor/fdi:010079736},
}